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Q 01 / 25
Electric current in a conductor is defined as the rate of flow of electric charge through its cross-section.
Q 02 / 25
The SI unit of electric current is volt.
Q 03 / 25
In a metallic conductor, electric current is due to the flow of electrons.
Q 04 / 25
Potential difference between two points in a circuit is the work done per unit charge in moving a test charge between them.
Q 05 / 25
The SI unit of potential difference is joule per coulomb, which is also called volt.
Q 06 / 25
In a simple electric circuit, an ammeter is always connected in parallel with the component whose current is to be measured.
Q 07 / 25
A voltmeter is connected in parallel across a resistor to measure the potential difference across it.
Q 08 / 25
Ohm’s law states that at constant temperature, the potential difference across a conductor is directly proportional to the current flowing through it.
Q 09 / 25
In the V–I graph of an ohmic conductor, the graph between potential difference and current is a curved line passing through the origin.
Q 10 / 25
The resistance of a conductor is defined as the ratio of potential difference across it to the current flowing through it.
Q 11 / 25
The SI unit of resistance is ohm, which is equal to volt per ampere.
Q 12 / 25
Resistivity of a material depends on the length and area of cross-section of the conductor made of that material.
Q 13 / 25
The SI unit of resistivity is ohm metre.
Q 14 / 25
The equivalent resistance of resistors connected in series is equal to the sum of their individual resistances.
Q 15 / 25
When resistors are connected in parallel, the same current flows through each resistor.
Q 16 / 25
For resistors in parallel, the reciprocal of the equivalent resistance is equal to the sum of the reciprocals of individual resistances.
Q 17 / 25
In a series combination of resistors, the total current in the circuit is equal to the sum of currents through each resistor.
Q 18 / 25
When the number of resistors in series increases, the total resistance of the circuit decreases.
Q 19 / 25
When additional resistors are connected in parallel to a circuit, the total resistance of the circuit decreases.
Q 20 / 25
The heating effect of electric current in a resistor depends only on the resistance, not on the current flowing through it.
Q 21 / 25
An electric fuse is a safety device that works on the heating effect of electric current.
Q 22 / 25
A good fuse wire must have a low melting point and high resistivity.
Q 23 / 25
Electric power is defined as the rate at which electrical energy is consumed or converted into another form.
Q 24 / 25
The SI unit of electric power is kilowatt-hour.
Q 25 / 25
For a given resistance, electric power consumed by a device increases when the potential difference applied across it increases.

Frequently Asked Questions

Electricity is the flow of electric charge (usually electrons) through a conductor due to a potential difference.

Electric current is the rate of flow of charge through a conductor.

Ampere (A).

A current of 1 A flows when 1 coulomb of charge passes through a conductor in 1 second.

\(( I = \frac{Q}{t} \) where \(I\) = current, \(Q\) = charge, \(t\) = time.

It is the work done to move a unit charge between two points in an electric circuit.

Volt (V).

\( V = \frac{W}{Q} \)

A device used to measure potential difference in a circuit.

Always in parallel with the component.

A device used to measure current in a circuit.

Always in series with the component.

Resistance is the opposition offered by a conductor to the flow of electric current.

Ohm (O).

At constant temperature, the current through a conductor is directly proportional to the potential difference across it: ( V \propto I ).
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